Two-Photon Resonant Rayleigh-Type Optical Mixing and Relaxation
スポンサーリンク
概要
- 論文の詳細を見る
The dispersion characteristics of the nonlinear susceptibility 7"' (n=3, 5, 7)describing a new type of optical mixing have been calculated for their applicationto the study of ultra-fast relaxation dynamics in resonant media. The process isthat two incident light waves at frequencies co3 and coz produce new light wavesat co. - me and co.4 ne (e=a. - co. ; m, n = 1, 2, 3,- " ) under the conditions oftwo-photon resonance (2co., 2co. : optical transition frequency) and Rayleigh-typeresonance (?a. -co.?:relaxation rate). Results of analysis based on an inhomo-geneously broadened three-level model revealed that Rayleigh-type dispersionsinvolving the longitudinal and transverse relaxation rates appear in z"' (n':5)and 7"' (ova 7), respectively. Their analogy with two-photon resonant photon echoand various precautions in applying them to actual situations are also discussed.
- 社団法人日本物理学会の論文
- 1978-03-15
著者
関連論文
- Wide-Range Measurement of Non-Impact Excitation Spectrum Using Ultrashort Light Pulses
- Collision-Induced Two-Photon Absorption of Ultrashort Light Pulses
- Two-Photon Resonant Third Harmonic Generation under Coherent Transient Condition
- Spatial Optical Parametric Coupling of Picosecond Light Pulses and Transverse Relaxation Effect in Resonant Media
- Tunable Subpicosecond Pulse Generation from 535 to 590 nm by a Hybridly Mode-Locked Dye Laser
- Spectral Properties and Tunability of Far-Infrared Difference-Frequency Radiation Produced by Picosecond Laser Pulses
- Cross Relaxation Effect in the Polarization Spectroscopy of Condensed Phases
- Free Carrier Faraday Effect in n-Type InSb with a Submillimeter-Wave Laser
- Far-Infrared Difference-Frequency Generation by Picosecond Laser Pulses
- Generation of Ultrashort Light Pulses by Electronic Self-Phase Modulation
- Rapid-Scan Autocorrelator for Monitoring cw Mode-Locked Dye Laser Pulses
- Far-Infrared Generation by Self-Beating of Dye Laser Light
- Temperature Dependence of Stimulated Brillouin Scattering in Quartz
- Far-Infrared Beat Generation in LiIO_3
- Ultrafast Relaxation Study by Resonant Rayleigh-Type Mixing Spectroscopy Using Picosecond Light Pulses
- Optical Mixing Due to Third Order Nonlinear Polarization in Quartz
- Two-Photon Resonant Rayleigh-Type Optical Mixing and Relaxation
- Generation of Broadly Tunable Subpicosecond Light Pulses from a Synchronously and Passively Mode-Locked CW Dye Laser